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Advanced 2D Materials 1st Edition by Ashutosh Tiwari, Mikael Syvajarvi ISBN 1119242495 978-1119242499

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Advanced 2D Materials 1st Edition Ashutosh Tiwari Digital Instant Download

Author(s): Ashutosh Tiwari, Mikael Syv?j?rvi
ISBN(s): 9781119242499, 1119242495
Edition: 1
File Details: PDF, 7.55 MB
Year: 2016
Language: english
SKU: EB-5544766 Category: Tags: ,

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Product details:

ISBN 10: 1119242495
ISBN 13: 978-1119242499
Author: Ashutosh Tiwari, Mikael Syvajarvi

This book brings together innovative methodologies and strategies adopted in the research and developments of Advanced 2D Materials. Well-known worldwide researchers deliberate subjects on (1) Synthesis, characterizations, modeling and properties, (2) State-of-the-art design and (3) innovative uses of 2D materials including:

  • Two-dimensional layered gallium selenide
  • Synthesis of 2D boron nitride nanosheets
  • The effects of substrates on 2-D crystals
  • Electrical conductivity and reflectivity of models of some 2D materials
  • Graphene derivatives in semicrystalline polymer composites
  • Graphene oxide based multifunctional composites
  • Covalent and non-covalent polymer grafting of graphene oxide
  • Graphene-semiconductor hybrid photocatalysts for solar fuels
  • Graphene based sensors
  • Graphene composites from bench to clinic
  • Photocatalytic ZnO-graphene hybrids
  • Hydroxyapatite-graphene bioceramics in orthopaedic applications

Advanced 2D Materials 1st Table of contents:

Part 1: Synthesis, Characterizations, Modeling and Properties

Chapter 1: Two-Dimensional Layered Gallium Selenide: Preparation, Properties, and Applications

1.1 Introduction

1.2 Preparation of 2D Layered GaSe Crystals

1.3 Structure, Characterization, and Properties

1.4 Applications

1.5 Conclusions and Perspectives

Acknowledgment

References

Chapter 2: Recent Progress on the Synthesis of 2D Boron Nitride Nanosheets

2.1 Boron Nitride and Its Nanomorphologies

2.2 Boron Nitride Nanosheets Synthesis

2.3 Conclusion

References

Chapter 3: The Effects of Substrates on 2D Crystals

3.1 Introduction

3.2 Fundamental Studies of 2D Crystals

3.3 Graphene Symmetries and Their Modification by Substrates and Functionalization

3.4 TMDs on Insulators and Metal Substrates

3.5 Conclusion

References

Chapter 4: Hubbard Model in Materials Science: Electrical Conductivity and Reflectivity of Models of Some 2D Materials

4.1 Introduction

4.2 The Hubbard Model

4.3 Calculations of Conductivity

4.4 The Hubbard Model and Optics

4.5 Conclusions

Acknowledgment

References

Part 2: State-of-the-Art Design of Functional 2D Composites

Chapter 5: Graphene Derivatives in Semicrystalline Polymer Composites

5.1 Introduction

5.2 Preparation of Polymer Nanocomposites Containing Graphene Derivatives

5.3 Properties of Graphene-based Polymer Nanocomposites

5.4 Synergic Effect of 2D/1D System

5.5 Conclusions and Future Perspectives

References

Chapter 6: Graphene Oxide: A Unique Nano-platform to Build Advanced Multifunctional Composites

6.1 Introduction to Graphene Oxide as Building Unit

6.2 Scaffolds for Tissue Engineering

6.3 Water Remediation

6.4 Multifunctional Structural Materials

6.5 Conclusions

Acknowledgments

References

Chapter 7: Synthesis of ZnO–Graphene Hybrids for Photocatalytic Degradation of Organic Contaminants

7.1 Introduction into Wastewater Treatment

7.2 Semiconductor-based Photocatalytic Degradation Mechanism

7.3 ZnO Hybridization Toward Enhanced Photocatalytic Efficiency

7.4 Synthesis Approaches for ZnO–Graphene Hybrid Photocatalysts

7.5 ZnO–Graphene Hybrid Photocatalysts

7.6 Ternary Hybrids with ZnO and rGO Materials

7.7 Conclusions

Acknowledgments

References

Chapter 8: Covalent and Non-covalent Modification of Graphene Oxide Through Polymer Grafting

8.1 Introduction

8.2 Covalent Modification of Graphene Oxide

8.3 Non-covalent Modification of Graphene Oxide

8.4 Composites and Grafts of GO with Natural Polymers

8.5 Conclusion

Acknowledgment

References

Part 3: High-Tech Applications of 2D Materials

Chapter 9: Graphene–Semiconductor Hybrid Photocatalysts and Their Application in Solar Fuel Production

9.1 Introduction

9.2 TiO2-based Photocatalyst

9.3 Non-TiO2 Semiconductors

9.4 Metal Complexes Sensitized Semiconductors

9.5 Graphene/Semicondutor/Metal Complexes-based Photocatalysts

9.6 Metal Free Dye-graphene Composite

9.7 Polymeric Semiconductors/Graphene Composites

9.8 Solar Fuel Production by Doped Graphene

9.9 Conclusion

References

Chapter 10: Graphene in Sensors Design

10.1 Introduction

10.2 Fabrication and Characterization of Graphene-based Materials

10.3 Applications

10.4 Conclusions

Acknowledgements

References

Chapter 11: Bio-applications of Graphene Composites: From Bench to Clinic

11.1 Introduction

11.2 Synthesis and Structural Features

11.3 Biomedical Applications

11.4 Conclusions (Current Limitations and Future Perspectives)

References

Chapter 12: Hydroxyapatite–Graphene Composites as Advanced Bioceramics for Orthopedic Applications

12.1 Background of Study

12.2 Literature Review

12.3 Functional Specifications

12.4 Summary and Concluding Remarks

References

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Tags: Ashutosh Tiwari, Mikael Syvajarvi, Advanced 2D Materials